注入锁紧差分振荡器的理论研究

IF 0.2 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC
V. Rapin
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引用次数: 0

摘要

通过对已发表的有关这一主题的著作的初步分析表明,目前还没有充分证实这类装置的理论,而且所使用的近似方法是粗糙的,并不总是符合实践的要求。提出的从微分自振荡器到等效单电路振荡器的过渡尚未得到令人信服的理由。本文提出了一种用严谨的方法研究同步差动振荡器的方法。在基尔霍夫定律的基础上,用非线性微分方程的形式建立了该振子的数学模型。他们的分析证实了向单电路LC振荡器模型的过渡,相当于差分振荡器。提出了一种过渡技术,包括基于差分振荡器两个放大元件的非线性特性确定该自振荡器放大元件非线性特性的方法。等效振荡器的数学模型用非线性无量纲微分范德波方程表示,简单准确。这种表示形式使得挑选出一个小参数并估计其值成为可能。众所周知,在小参数值较小的情况下,可以使用传统方法对其进行分析。这样,研究差分振荡器的同步过程的任务就简化为研究范德波尔振荡器的同步过程。所提出的结果可用于开发各种基于同步差分振荡器的器件。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Theoretical investigation of injection-locked differential oscillator
A preliminary analysis of published works on this topic showed that at present there is no sufficiently substantiated theory of such devices, and the approximate approaches used are rough and do not always meet the requirements of practice. The proposed transition from a differential self-oscillator to an equivalent single-circuit oscillator has not received a convincing justification. This article presents a methodology for studying a synchronized differential oscillator using rigorous methods. A mathematical model of such oscillator is presented in the form of nonlinear differential equations obtained on the basis of Kirchhoff's laws. Their analysis made it possible to substantiate the transition to the model of a single circuit LC oscillator, equivalent to a differential one. A technique for such a transition is proposed, including the procedure for determining the nonlinear characteristics of the amplifying element of this self-oscillator, based on the nonlinear characteristics of two amplifying elements of the differential oscillator. The mathematical model of an equivalent oscillator is represented by a non-linear differential Van der Pol equation in a dimensionless form, it is simple and accurate. This form of representation made it possible to single out a small parameter and estimate its value. In the case of small values of the small parameter, as is known, traditional methods can be used for its analysis. Thus, the task of studying the synchronization process of a differential oscillator is reduced to the study of the synchronization process of a Van der Pol oscillator. The presented results can be useful in the development of various devices based on synchronized differential oscillators.
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Visnyk NTUU KPI Seriia-Radiotekhnika Radioaparatobuduvannia
Visnyk NTUU KPI Seriia-Radiotekhnika Radioaparatobuduvannia ENGINEERING, ELECTRICAL & ELECTRONIC-
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